about
A call for transparent reporting to optimize the predictive value of preclinical researchThe multiple LIM domain-containing adaptor protein Hic-5 synaptically colocalizes and interacts with the dopamine transporterFunctional comparisons of three glutamate transporter subtypes cloned from human motor cortexExcitatory amino acid transporter 5, a retinal glutamate transporter coupled to a chloride conductanceCloning and expression of a human neutral amino acid transporter with structural similarity to the glutamate transporter gene familyAmphetamine modulates excitatory neurotransmission through endocytosis of the glutamate transporter EAAT3 in dopamine neuronsFound in translation: training the next generation of translational neuroscientistsAmphetamine activates Rho GTPase signaling to mediate dopamine transporter internalization and acute behavioral effects of amphetamine.Differentiation of substrate and nonsubstrate inhibitors of the high-affinity, sodium-dependent glutamate transportersThe mouse and human excitatory amino acid transporter gene (EAAT1) maps to mouse chromosome 15 and a region of syntenic homology on human chromosome 5Alternative RNA processing in calcitonin gene expression generates mRNAs encoding different polypeptide productsProduction of a novel neuropeptide encoded by the calcitonin gene via tissue-specific RNA processingInhibition of dopamine transporter activity by G protein βγ subunitsTwo allelic isoforms of the serotonin transporter from Schistosoma mansoni display electrogenic transport and high selectivity for serotoninThe antidepressant-sensitive dopamine transporter in Drosophila melanogaster: a primordial carrier for catecholamines.Distinct proteomic profiles of amphetamine self-administration transitional states.Glial and Neuronal Glutamate Transporters Differ in the Na+ Requirements for Activation of the Substrate-Independent Anion ConductanceFunctional diversity of excitatory amino acid transporters: ion channel and transport modes.Substrate transport and anion permeation proceed through distinct pathways in glutamate transporters.Altered expression of the calcitonin gene associated with RNA polymorphism.Membrane cholesterol modulates the outward facing conformation of the dopamine transporter and alters cocaine binding.A sensitive membrane-targeted biosensor for monitoring changes in intracellular chloride in neuronal processes.Cysteine transport through excitatory amino acid transporter 3 (EAAT3).Neurotransmitter transporters: three distinct gene families.Multiple ionic conductances of the human dopamine transporter: the actions of dopamine and psychostimulants.Excitatory amino acid transporters: keeping up with glutamate.New views of glutamate transporter structure and function: advances and challenges.Differential regulation of two isoforms of the glial glutamate transporter EAAT2 by DLG1 and CaMKIIDynamic regulation of the dopamine transporter.Chimeric dopamine-norepinephrine transporters delineate structural domains influencing selectivity for catecholamines and 1-methyl-4-phenylpyridiniumA Mutation in Transmembrane Domain 7 (TM7) of Excitatory Amino Acid Transporters Disrupts the Substrate-dependent Gating of the Intrinsic Anion Conductance and Drives the Channel into a Constitutively Open State.Genetic complementation screen identifies a mitogen-activated protein kinase phosphatase, MKP3, as a regulator of dopamine transporter traffickingCalcitonin/calcitonin gene-related peptide transcription unit: tissue-specific expression involves selective use of alternative polyadenylation sites.Differential targeting of the dopamine transporter to recycling or degradative pathways during amphetamine- or PKC-regulated endocytosis in dopamine neurons.Transport and channel functions in EAATs: the missing link.Identification and characterization of a cDNA encoding a neuronal glutamate transporter from Drosophila melanogaster.Excitatory amino acid transporters of the salamander retina: identification, localization, and function.Introduction to the Theme "New Methods and Novel Therapeutic Approaches in Pharmacology and Toxicology".ErbB4 signaling in dopaminergic axonal projections increases extracellular dopamine levels and regulates spatial/working memory behaviors.Calcitonin, prolactin, and growth hormone gene expression as model systems for the characterization of neuroendocrine regulation.
P50
Q24289327-70711908-640F-4331-AA6E-2C4596BED671Q24304470-5D7C49ED-5559-4B04-881C-964B2545AF72Q24306108-2E939D2F-00A2-4ED3-BEAA-A93E29B86356Q24313586-3B19B32C-97A3-41E8-8FA4-D1E5DD093EA6Q24322409-0261E9A6-2336-4F84-89CF-D81C10A476BBQ24563448-BCCA386C-8C90-4D8B-A08C-6C23FFBB7869Q26824142-F017E8CD-63FC-48D6-BB79-6DE5659E3ABAQ27320548-F23FFCC0-8E15-49CE-9819-0D153718DD5FQ28138306-EC464D1E-A2E1-4C08-BF3C-82FC75AA4BEBQ28243385-7577896A-EDBB-4CDE-BB9D-CFCB66E2C9F6Q28264638-34EBCA7D-6474-4A3F-83BE-B9C4BEF05BC1Q28266416-C84895FF-2F23-440F-A9A8-5619D5EC349CQ28488854-7C3217B7-930D-43DD-BDB7-9461810F881EQ28751482-65442A2F-25F8-4F2A-AC9A-E19928A41B67Q31744757-7587A209-6A05-4728-842A-05AE68C08AE2Q33214397-7824517E-7B69-471D-98D3-E2F167A7B851Q33734827-2EF7FA1C-B9C0-45A6-B7D8-C690FAC891D5Q33749190-B111866E-6FFC-47F5-8957-860F9946F3C9Q33803749-7CA39486-BD98-4CBE-8B0B-BD1CC11A9C58Q34057130-757960F7-B5AC-4CEF-9121-4CB217C5D326Q34186694-2729581A-4898-4948-A6B1-4006BA38F825Q34233878-B37C0004-00BD-4514-A770-36157FD83703Q34282413-EC4D85E8-86F0-4A53-A13A-3BB2189766A5Q34335328-03E75666-3E27-43CA-9EFD-E7A5114EFDCEQ34413154-69A3F1E4-DC02-4C82-AB6E-8998FE624924Q34784321-23E657C9-E6F8-4009-986C-3DFDEC8FC2DBQ34865910-08AAF5D6-7A5E-420D-8D54-0BEA4C551FF9Q35236874-7B79D979-1D72-46AF-B539-B605DA0DA6C2Q35581516-D0798413-C4A8-4E1B-8EED-4764FA4D8BF4Q35993022-F370E98E-D5B4-485D-A299-4D2FFB354994Q36281611-0273D7BD-86C6-4811-9ACB-4674F8DE98A0Q36739955-8D19164E-6DD4-4E3F-9103-084088414398Q36948804-8DDA7E66-1736-4699-B98A-14765BDC3EE3Q37022861-93764300-C818-42A9-9304-DE7CF45E5508Q37126421-9F39D360-F49B-4650-8F70-6EA961093F6FQ38335532-788C3EF3-D0B7-41BA-9225-C52A2783F73CQ38340430-EB8D7718-0291-4EDE-BEEB-55FF38233F7EQ38978974-2B33DA6D-EA00-4EB6-A400-107073858C89Q40115060-B0D13D7E-4FB4-42C1-A3AC-79436D42FF7CQ40209334-3D702376-BFEE-4D4B-B265-1883F20EFC09
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Susan Amara
@ast
Susan Amara
@en
Susan Amara
@es
Susan Amara
@nl
type
label
Susan Amara
@ast
Susan Amara
@en
Susan Amara
@es
Susan Amara
@nl
prefLabel
Susan Amara
@ast
Susan Amara
@en
Susan Amara
@es
Susan Amara
@nl
P106
P21
P31
P496
0000-0001-8914-1106